In order to convert an integer to a binary, I have used this code:
>>> bin(6)
'0b110'
and when to erase the '0b', I use this:
>>> bin(6)[2:]
'110'
What can I do if I want to show 6
as 00000110
instead of 110
?
In order to convert an integer to a binary, I have used this code:
>>> bin(6)
'0b110'
and when to erase the '0b', I use this:
>>> bin(6)[2:]
'110'
What can I do if I want to show 6
as 00000110
instead of 110
?
>>> '{0:08b}'.format(6)
'00000110'
Just to explain the parts of the formatting string:
{}
places a variable into a string0
takes the variable at argument position 0:
adds formatting options for this variable (otherwise it would represent decimal 6
)08
formats the number to eight digits zero-padded on the leftb
converts the number to its binary representationIf you're using a version of Python 3.6 or above, you can also use f-strings:
>>> f'{6:08b}'
'00000110'
0
means the 0th
argument to format
. After the colon is the formatting, the second 0
means zero fill to 8 spaces and b
for binary
format()
function: format(6, '08b')
; the function takes a value (what the {..}
slot applies to) and a formatting specification (whatever you would put after the :
in the formatting string).
Commented
Sep 11, 2013 at 17:33
Just another idea:
>>> bin(6)[2:].zfill(8)
'00000110'
Shorter way via string interpolation (Python 3.6+):
>>> f'{6:08b}'
'00000110'
bin(-6)[2:].zfill(8)
reads as '0000b110'
Commented
Dec 14, 2019 at 7:19
Just use the format function
format(6, "08b")
The general form is
format(<the_integer>, "<0><width_of_string><format_specifier>")
1000000 loops, best of 3: 556 ns per loop
A bit twiddling method...
>>> bin8 = lambda x : ''.join(reversed( [str((x >> i) & 1) for i in range(8)] ) )
>>> bin8(6)
'00000110'
>>> bin8(-3)
'11111101'
x
to the right and ANDs it with 1
, effectively extracting one bit (0 or 1) at a time.
reversed
could be removed by using range(7,-1,-1)
; albeit more ‘pure’, but perhaps less readable/intuitive.
numpy.binary_repr(num, width=None)
has a magic width argumentRelevant examples from the documentation linked above:
>>> np.binary_repr(3, width=4) '0011'
The two’s complement is returned when the input number is negative and width is specified:
>>> np.binary_repr(-3, width=5) '11101'
eumiro's answer is better, however I'm just posting this for variety:
>>> "%08d" % int(bin(6)[2:])
00000110
The best way is to specify the format.
format(a, 'b')
returns the binary value of a in string format.
To convert a binary string back to integer, use int() function.
int('110', 2)
returns integer value of binary string.
.. or if you're not sure it should always be 8 digits, you can pass it as a parameter:
>>> '%0*d' % (8, int(bin(6)[2:]))
'00000110'
Going Old School always works
def intoBinary(number):
binarynumber=""
if (number!=0):
while (number>=1):
if (number %2==0):
binarynumber=binarynumber+"0"
number=number/2
else:
binarynumber=binarynumber+"1"
number=(number-1)/2
else:
binarynumber="0"
return "".join(reversed(binarynumber))
number=number/2
gives float, so number=number//2
seams better, also I would replace number=number//2
with number//=2
and b=b+"0"
with b+="0"
number=7
, your function returns "111" instead of "0111", this is unexpected.
Assuming you want to parse the number of digits used to represent from a variable which is not always constant, a good way will be to use numpy.binary.
could be useful when you apply binary to power sets
import numpy as np
np.binary_repr(6, width=8)
('0' * 7 + bin(6)[2:])[-8:]
or
right_side = bin(6)[2:]
'0' * ( 8 - len( right_side )) + right_side
def int_to_bin(num, fill):
bin_result = ''
def int_to_binary(number):
nonlocal bin_result
if number > 1:
int_to_binary(number // 2)
bin_result = bin_result + str(number % 2)
int_to_binary(num)
return bin_result.zfill(fill)
Simple code with recursion:
def bin(n,number=('')):
if n==0:
return(number)
else:
number=str(n%2)+number
n=n//2
return bin(n,number)
The Python package Binary Fractions has a full implementation of binaries as well as binary fractions. You can do your operation as follows:
from binary_fractions import Binary
b = Binary(6) # Creates a binary fraction string
b.lfill(8) # Fills to length 8
This package has many other methods for manipulating binary strings with full precision.
def convertToBinary(self, n):
result=""
if n==0:
return 0
while n>0:
r=n%2
result+=str(r)
n=int(n/2)
if n%2==0:
result+="0"
return result[::-1]